JP2783840B2 - Apartment intercom - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an intercom for a dwelling house, and relates to a unit between a door provided in a common entrance or a caretaker room and a dwelling unit provided in each dwelling unit. It is suitable for use for making a telephone call.

[Prior Art] Conventional Example 1 FIG. 2 shows a schematic configuration of a conventional intercom with a television. When the visitor operates the call switch 24 provided on the entrance G, the resistance R ₁ is connected in parallel with the impedance Z ₁ , a call signal is transmitted to the dwelling unit J, and the ringing sound from the calling speaker 3 of the dwelling unit J. Sounds. When the resident responds by pressing the answer switch 4 to this ringing tone, the power line l ₁
Power is supplied to the television camera 21 provided at the entrance vessel G via, the video signal is transmitted to the dwelling unit J via a coaxial cable l _0, the video is displayed on the monitor television 1. The audio signals from the handset 2 of the dwelling unit J is transmitted to the front door unit G through the signal line l ₂ for call, voice resident is output from the speaker 22 via the audio transformers 29 of the entrance unit G You. On the other hand, the audio signal of the visitor input by the microphone 23 of the entrance unit G is the coupling capacitor 27 and audio amplifier 26, via the bridge circuit 28 and the audio transformers 29, dwelling unit J via the signal line l ₂ for call , And a voice signal of the visitor is output from the handset 2 of the dwelling unit J. As a result, a call is made between the visitor and the resident, and the resident can check the appearance of the visitor. Note that to enable notification to the entrance unit G is connected with much lamp 25 through the resistor R _2, the home of the abnormality through the emergency communication lines l ₄ in the front door side.

In this conventional example, in order to connect the dwelling unit J and the entrance unit G, a coaxial cable l ₀ for the transmission video signal, the power supply line l _1,
Call and call signal line l ₂ , ground line l ₃ and emergency call line
We are using a 4-core cable of l _4. Therefore, the wiring of the transmission line is complicated, and if, for example, only a 2-core or 4-core cable for intercom communication is installed at the time of installation, the wiring must be redone when an additional TV camera is installed. There was a problem.

Conventional Example 2 FIGS. 3 (a) and 3 (b) show a schematic configuration of another conventional example. This system is configured by combining a dwelling unit J having a monitor TV 1 installed in a dwelling unit and an entrance unit G having a television camera 21 installed at the entrance, both of which are dedicated to coaxial cable or the like. Are connected by a transmission line l. Power is supplied to the entrance from the dwelling unit J, and video, audio, and control signals are multiplexed to communicate necessary information.

More specifically, the dwelling unit J includes a power supply superimposing circuit 8 for supplying power to the entrance G, and an FM of a call signal transmitted in response to operation of the call switch 24 of the entrance G.
A ringing detection circuit for demodulating the modulated wave, a ringing tone generating circuit 20 for amplifying the demodulated ringing tone and sounding the ringing tone from the calling speaker 3, a voice modulation circuit 17 for FM-modulating the voice signal, and a signal transmitted from the entrance G. A demodulation circuit 13 for demodulating the FM-modulated signal to extract a voice signal, a handset 2 having a microphone and a speaker for voice communication, voice amplifiers 14 and 15 and a sidetone prevention circuit 16 constituting a voice communication circuit including the handset 2, Video signal output circuit 11 for taking out the video signal sent from the device G and outputting it to the monitor television 1, and an audio modulation circuit
The FM modulation signal output from 17 is input through a band-pass filter 18, and the FM modulation signal transmitted from the entrance G is output to the audio demodulation circuit 13 via the band-pass filter 12. A balanced input / output circuit 9 for outputting the transmitted video signal to the video signal output circuit 11 via the video filter 10 and transmitting the supply voltage of the power supply superimposing circuit 8 to the entrance apparatus G is provided. The voice modulation circuit 17 FM-modulates the transmission voice signal from the handset 2 to generate a balanced input / output circuit 9.
The sound demodulation circuit 13 demodulates the FM modulation signal from the balanced input / output circuit 9 and outputs the sound of the entrance G from the handset 2. The video signal transmitted from the entrance apparatus G is amplified by the video signal output circuit 11 through the video filter 10 from the balanced input / output circuit 9 and then output to the monitor television 1. The power supply superposition circuit 8 is provided with a short circuit protection circuit 6 and an open circuit detection circuit 7 for the transmission line. When the response switch 4 is operated, the control circuit 5 operates to activate the power supply superimposing circuit 8 and supply power to the entrance apparatus G.

On the other hand, the entrance apparatus G includes an audio demodulation circuit 38 for demodulating the FM modulation signal sent from the dwelling unit J to extract an audio signal, an audio modulation circuit 40 for modulating an audio signal from the microphone 23, and a call switch 24. A call signal generation circuit 43 that generates a call signal in response to an operation, an operation state determination circuit 42 that determines an operation state and enables generation of a call signal if not in a call state,
An FM modulation signal output from the audio modulation circuit 40 via the band-pass filter 41, an FM modulation signal output from the ringing signal generation circuit 43, and a video filter from the television camera 21.
A balanced input / output circuit that inputs a video signal output through 30 and a video signal output circuit 31, sends out a multiplex transmission signal to a transmission line l, and outputs an FM modulation signal to a voice demodulation circuit 38 via a band pass filter 37. 32, transmission line 1 and entrance G
A depolarizing circuit 33 for depolarizing the connection with the power supply, and a power source for the entrance apparatus G via the balanced input / output circuit 32 from the modulated signal transmitted from the dwelling unit J via the transmission line l. And a power supply separation circuit 34. The power supply voltage separated by the power supply separation circuit 34 is used as a camera power supply and a circuit power supply via a power supply switch circuit 35 and a shunt regulator 36. The audio modulation circuit 40 FM-modulates the audio signal input from the microphone 23 and amplified by the audio amplifier 26 and sends it out to the dwelling unit J via the balanced input / output circuit 32. The FM modulation signal from the circuit 32 is demodulated, amplified by the audio amplifier 39, and output from the speaker 22.

In this intercom system, dwelling unit J and entrance unit G
Are connected by a pair of transmission lines 1 made of a coaxial cable or the like, and a video, audio, and other control signals necessary for information communication are multiplex-transmitted between the two via the transmission lines l. ing.

FIG. 4 shows a frequency division state of a signal transmitted via the transmission line 1 in the present system. As shown in the figure, the FM modulated wave of the audio signal sent from the dwelling unit J to the entrance unit G is transmitted at the first carrier frequency, and the FM modulated wave of the audio signal sent from the entrance unit G to the dwelling unit J is the It is transmitted at two carrier frequencies and the FM modulated wave of the calling signal is transmitted at the third carrier frequency. These are set to a frequency higher than the video signal frequency band of the TV camera transmitted at baseband to prevent interference. Have been. Note that a power supply voltage is superimposed as a DC component, and these are multiplex-transmitted via a dedicated transmission line l.

By the way, when such a system is used in an apartment house having a large number of dwelling units, in order to make a call between a common entrance (or a management room) and one of a plurality of dwelling units,
It is necessary to switch a plurality of voice lines by some means. For example, a method is conceivable in which control is performed so that only the household unit during a call can transmit the frequency allocated for transmitting the audio signal. In this method, since each dwelling unit is always connected to the common entrance, it is necessary to use a dedicated branch or distributor in order to match the impedance of the transmission line. On the other hand, it is also possible to use a method in which only the selected dwelling unit is switched to the entrance unit and the other dwelling units are separated from the entrance unit. In this scheme,
A transmission line switch may be provided in place of the branch or distributor for impedance matching of the transmission line.

[Problems to be Solved by the Invention] However, in the case where a transmission line switch is provided between a common entrance and a plurality of dwelling units, a visitor receives one of the plurality of dwelling units by the entrance unit or the like. When one is selected, it is necessary to confirm that the selected dwelling unit is connected to the transmission line. For example, if you select a dwelling unit at the entrance, and if power is supplied to the FM demodulation circuit at the entrance, for example, the transmission line to the dwelling unit is disconnected or the dwelling unit is moved. When the connection is not established, or when the transmission from the selected dwelling unit is delayed, a state where the carrier wave is not transmitted from the dwelling unit may occur. In such a case, a large noise peculiar to the FM system may be generated from the audio demodulation circuit on the side of the entrance apparatus. In order to prevent such noise, a squelch circuit may be added to the audio demodulation circuit. However, the squelch circuit may not work due to the influence of ambient noise or the like. Furthermore, in this type of intercom system, when one dwelling unit is selected, a control method in which selection of another dwelling unit is not accepted until a call with the dwelling unit is terminated is adopted. In this case, in this case, when a vacant terminal, that is, a transmission line to which no dwelling unit is connected or a disconnected transmission line or the like is selected on the side of the entrance unit, if the dwelling unit detection is not performed by any means, Since the operation of selecting the transmission line is continued, the user may fall into a state where the user cannot select another dwelling unit.

The present invention has been made in view of such a point,
An object of the present invention is to make it possible to reliably detect the connection of a dwelling unit in an intercom for a dwelling unit that selectively switches and connects one of a plurality of dwelling units to a door.

In the collective housing intercom according to the present invention [Means for Solving the Problems] In order to solve the above problem, as shown in FIG. 1, the front door unit G and dwelling unit J ₁ through J ₄ at least the audio signal and the intercom and power to multiplex using a pair of transmission lines l, 1 single entrance vessel G and a plurality of dwelling units units J ₁ through J 1 bract a to switching connection repeater of the _four between comprising a R, entrance units G and dwelling unit J ₁ through J ₄ is provided with means for transmitting and modulating and demodulating the audio signal in the FM mode, dwelling units J ₁ through J ₄ is means for supplying power to the transmission line l The entrance apparatus G is configured to be supplied with power from the transmission line l, and the repeater R is connected when the voltage of the transmission line l connected to the switchingly connected dwelling unit becomes equal to or higher than the reference voltage. A voltage determining circuit 64 for determining that the dwelling unit is in an operating state, and the dwelling unit is operated by the voltage determining circuit 64 It is characterized in further comprising a circuit 62 for supplying power to the transmission line l leading to the entrance unit G when it is determined that state.

The voltage discriminating circuit 64 disconnects the dwelling unit when the rising of the voltage of the transmission line l connected to the switched dwelling unit is not detected for a certain time or more or when the voltage of the transmission line l falls. With such a configuration, the dwelling unit can be disconnected when the dwelling unit is not connected to the transmission line l, when there is a disconnection in the transmission line l, or when the communication is terminated. It is preferable that the reference voltage for detecting the rise and fall of this voltage be different voltages. Further, if the detection of the falling edge is prohibited for a certain time after the detection of the rising edge, and the detection of the rising edge is prohibited for a certain time after the detection of the falling edge, erroneous detection due to the voltage oscillation can be advantageously prevented.

[Operation] In the present invention, a plurality of dwelling units J _{1 to} J ₄ are thus provided.
Among them, the voltage of the transmission line l connected to the dwelling unit Ji (i = 1 to 4) switched and connected to the entrance unit G by the repeater R is determined, and power is supplied to the entrance unit G according to the determination result. Since it is performed, disconnection of the dwelling unit, disconnection of the transmission line, end of the conversation of the dwelling unit, etc. can be reliably detected, and the inconvenience caused by the inability to confirm the connection of the dwelling unit in the past is solved. be able to. For example, it is possible to prevent a large noise peculiar to the FM system from being generated from the audio demodulation circuit on the side of the entrance. Further, at the time of a call, the entrance apparatus and the dwelling unit are connected one-to-one via the transmission line l and the other dwelling units are disconnected, so that there is no danger of deterioration of the communication quality due to impedance mismatch or the like.

Furthermore, by combining the detection of the rise or fall of the voltage of the transmission line connected to the dwelling unit with the determination of the elapsed time, it is possible to prevent erroneous detection due to characteristics of the transmission line, voltage oscillation, and the like. In this case,
If the reference voltage for voltage rise detection and the reference voltage for fall detection are set to different values, even if the voltage change is delayed due to the characteristics of the transmission line, the rise detection and fall detection are performed quickly. It becomes possible.

Embodiment FIG. 1 is a block diagram of one embodiment of the present invention. This system consists of a single entrance G placed at a common entrance, etc.
If, comprising a plurality of dwelling units instrument J ₁ through J ₄ is disposed in each dwelling, a repeater R that connects them via the transmission line l.

First, the entrance apparatus G includes a door phone D with a camera and a dwelling unit selection unit S. The configuration of the doorphone with camera D is the same as the configuration of the entrance apparatus G in the conventional intercom with television shown in FIG. 3, in which a video signal and an audio signal are multiplexed and put on the transmission line l. Doorphone D with this camera
In order to reduce power consumption, power is not supplied during standby (at the time of non-communication), and the transmission line
Is configured to be supplied with power via the. Dwelling selection unit S is a device for selecting one of a plurality of dwelling units units J ₁ through J ₄ from the side of the front door unit G, a selection switch unit 45, and a selection signal transmitting circuit 46. Entrance G
Is transmitted using a DTMF (Double Modulated Tone Frequency) signal used in an electronic key telephone or the like. This selection signal may be superimposed on the audio signal from the entrance G, or may be transmitted on a carrier different from the audio signal of the entrance G. In this embodiment, the DTMF signal is transmitted on a separate line, and the operating power source of the dwelling unit selection unit _S is superimposed on the DTMF signal transmission line lS. Power separation circuit 47 is a circuit for separating the operating power supply voltage of the dwelling unit selection unit S from the transmission line l _S of the DTMF signal.

Construction of dwelling units instrument J ₁ through J _4, except that by adding a remote control device of the electric lock has the same configuration as the dwelling unit J in the conventional example shown in Figure 3. The remote control device for the electric lock transmits an unlock signal for unlocking the electric lock 71 via the transmission line l, and an unlock confirmation signal from the electric lock 71 from the transmission line l. It comprises a confirmation receiving section 49 for receiving and a confirmation sound generating section 50 for generating a confirmation sound when an unlock confirmation signal is received. Note that the dwelling unit J is configured to supply a low DC voltage to the transmission line 1 in the standby state, and to supply a high DC voltage to the transmission line 1 in the operating state.

The repeater R selects one of the plurality of dwelling units J _{1 to} J ₄ based on the selection signal generated by the dwelling unit selection unit S in the entrance unit G, and selects a door phone D with a camera of the entrance unit G.
Connect with Each dwelling units J ₁ through J each 2 contacts the transmission line l leading to ₄ relay contact S ₁ to S ₄ via the balun circuit
Connected to 51. The transmission line l leading to the camera-equipped doorphone D is connected to a balance-unbalance conversion circuit 61.
These balance-unbalance conversion circuits 51 and 61 realize impedance matching between the transmission line 1 outside the repeater R and the circuit inside the repeater R. The audio modulation signal from the dwelling unit output from the balance-unbalance conversion circuit 51 is amplified by the amplifier 52 and input to the balance-unbalance conversion circuit 61 via the band-pass filter 53 and the output circuit 54. Conversely, the audio modulation signal from the entrance device output from the balance / unbalance balance circuit 61 is amplified by the amplifier 55 and input to the balance / unbalance conversion circuit 51 via the band pass filter 56 and the output circuit 57. The video signal from the entrance device output from the balance-unbalance conversion circuit 61 is amplified by the amplifier 60, and the low-pass filter
The signal is input to the balance-unbalance conversion circuit 51 via the output circuit 59 and the output circuit 58. The balance-unbalance conversion circuit 61 is connected to a transmission line l leading to a doorphone D with a camera in the entrance G.
The power supply voltage supplied from the power supply superimposing circuit 62 is superimposed on the transmission line l. The call signal generation circuit 63, when the selection signal of the dwelling unit is received by the selection signal receiving circuit 65,
A call signal for calling the dwelling unit is generated and supplied to the transmission line 1 via the balance-unbalance conversion circuit 51. Voltage judgment circuit
64 detects the voltage level of the DC component on the transmission line 1 via the balance-unbalance conversion circuit 51, and determines the operation state and the non-operation state of the dwelling unit according to the detection result. The selection signal receiving circuit 65 receives the selection signal from the dwelling unit selection unit S, and determines the number i (i = 1 to 4) of the selected dwelling unit Ji. The relay control circuit 67 connects the relay contacts Si (i = 1 to 4) connected to the transmission line l to one dwelling unit Ji according to the selection signal received by the selection signal receiving circuit 65. . The power supply superimposing circuit 66 is a circuit for superimposing the operating power supply voltage of the dwelling unit selection unit S on the transmission line l _S leading to the dwelling unit selection unit S. The power of the power supply superposition circuits 62 and 66 is supplied from the power supply circuit 72 of the repeater R.

The relay R of the present embodiment includes an electric lock control device. When an unlock signal is received by the unlock receiving unit 68, the relay R controls the electric lock 71 through the electric lock interface 70 to instruct the electric lock 71 to open. A signal is sent, and the electric lock 71 is unlocked. At this time, a signal indicating the unlocked state is given from the electric lock 71 to the confirmation transmitting unit 69 via the electric lock interface 70, and the unlocking confirmation signal is transmitted from the confirmation transmitting unit 69. ing.

Hereinafter, the operation of the present embodiment will be described. First, in the standby state before selecting the dwelling unit J ₁ through J _4, relay R
The relay contacts S _{1 to} S ₄ to each of the dwelling units J _{1 to} J ₄ are separated from each other. Then, from the door unit G, the dwelling unit Ji (i = 1 to
When 4) is selected, a signal indicating the number i of the dwelling unit Ji is input from the selection signal receiving circuit 65 to the relay control circuit 67, and the relay contact Si corresponding to the selected dwelling unit Ji is connected. At this time, a dwelling unit call signal is simultaneously transmitted from the calling signal generation circuit 63 to the dwelling unit Ji. As described in the conventional example, a carrier wave of a special frequency may be transmitted as the paging signal, or the transmission signal may be transmitted by lowering the transmission line voltage to a certain value or shorting the transmission line l. You may do it. Such a call signal may be generated by either the repeater R or the entrance G,
In the present embodiment, since the doorphone D with a camera and the dwelling unit selection unit S in the entrance apparatus G are transmitted separately,
A call signal is generated by the repeater R. Thus, dwelling unit
When Ji is selected and the relay contact Si is connected, the dwelling unit Ji receives the call signal and starts operating,
A circuit for supplying power operates to raise the voltage level of the DC component of the transmission line l. As described above, the dwelling unit supplies a low DC voltage to the transmission line l even in the standby state, but in the operating state, the DC voltage of the transmission line l is set higher than in the standby state. . In the repeater R, the level of the DC voltage is monitored by the voltage determination circuit 64 to detect the start of operation of the dwelling unit. When the start of the operation of the dwelling unit is detected, the power supply superimposing circuit 62 operates to supply power to the camera-equipped door phone D of the entrance apparatus G. Therefore, when power is supplied to the camera-equipped door phone D, the dwelling unit is always connected normally and starts operating normally. For this reason, FM in the intercom D with camera
A state in which the FM modulated wave from the dwelling unit is not supplied to the audio demodulation circuit of the system does not occur, and abnormal noise does not temporarily occur as in the related art.

Here, while the first dwelling unit is being selected and called at the entrance unit G, calling another dwelling unit may cause inconvenience. In other words, if the second dwelling unit is called while the first dwelling unit is being called, there is a possibility that a plurality of dwelling units will answer at the same time. It is preferable to prohibit calling of the container. Therefore, in this embodiment, after selecting and calling the first dwelling unit, a method of not accepting selection of another dwelling unit until the end of the call is adopted. Specifically, the operation of the call signal generation circuit 63 and the relay control circuit 67 is prohibited until the end of the call is detected by the voltage determination circuit 64.

At the end of the call, the level of the DC voltage of the transmission line 1 decreases because the DC voltage of the transmission line 1 is set to the standby state voltage on the dwelling unit side. Therefore, the repeater R monitors the level of the DC voltage of the transmission line 1 and detects the fall of the voltage, thereby canceling the selection of the dwelling unit. Specifically, sends a reset signal to the relay control circuit 67 from the voltage discriminating circuit 64, is intended for all the relay contact S ₁ to S ₄ opens away. However, in the present embodiment, in the intercom D with a camera,
The relay contacts S _{1 to} S ₄
Before disconnecting, the operation of the power supply superposition circuit 62 is stopped,
The power supply of the camera-equipped door phone D in the entrance G is shut off first to prevent occurrence of abnormal noise. Since the operation of the power supply superimposing circuit 66 is continued, power is continuously supplied to the dwelling unit selection unit S, and the dwelling unit selection unit S does not stop its operation.

By the way, when there is an empty line in the transmission line l from the repeater R to the dwelling unit, or when the voltage of the transmission line l to the dwelling unit is not normal due to disconnection, the voltage of the transmission line l is not changed even after the relay contact is connected. The specified voltage is not reached. Therefore, in the repeater R, if the voltage of the transmission line 1 does not reach the specified voltage even after a certain time (for example, 1 second) has elapsed after the connection of the relay contact,
The reset signal generated by the voltage determination circuit 64 to all the relay contact S ₁ to S ₄ opens away. Further, in this case, since the rising of the voltage of the transmission line 1 is not detected, the power supply superposition circuit 62 does not start the power supply operation. That is, in the present embodiment, the power supply of the camera-equipped door phone D in the entrance apparatus G is not turned on unless the dwelling unit is properly connected and does not start operating normally.

On the other hand, even when the dwelling unit is normally connected and starts operating normally, when the voltage of the transmission line l reaching the dwelling unit rises, voltage oscillation may occur in the transmission line l transiently. The voltage oscillation is not determined only by the characteristic impedance of the transmission line l, so different from each other by the length of each transmission line leading to the dwelling unit device J ₁ through J _4, it may not occur voltage oscillations by dwelling unit In other household appliances, voltage oscillations may occur significantly. Then, the voltage of the transmission line 1 may temporarily decrease due to the voltage oscillation, and it is inconvenient to mistakenly determine that the voltage decrease is the end of the call. Thus, the voltage discriminating circuit 64 of the present embodiment employs a method in which the rising of the voltage of the dwelling unit is not detected, and then the falling of the voltage is not detected for a predetermined time (for example, 100 msec). As a result, it is not possible to mistakenly determine that the call has ended due to the voltage oscillation when the voltage of the transmission line leading to the dwelling unit rises.

Further, when the dwelling unit ends the call operation and the voltage of the transmission line l leading to the dwelling unit falls, the transmission line
May cause voltage oscillation. The voltage oscillation may temporarily increase the voltage of the transmission line 1 due to this voltage oscillation, and it is inconvenient to mistakenly judge this voltage increase as the start of the operation of the dwelling unit. Therefore, the voltage discriminating circuit 64 of the present embodiment detects the falling of the voltage of the dwelling unit and then, after detecting the falling,
0 msec) adopts a method that does not detect the rising of the voltage. As a result, there is no possibility that the dwelling unit is erroneously determined to be in the operating state due to the voltage oscillation when the voltage reaching the dwelling unit falls.

The voltage discriminating circuit 64 includes a voltage comparator for comparing the voltage level of the DC component of the transmission line l leading to the dwelling unit with a predetermined reference voltage, and when the voltage of the transmission line l is equal to or higher than the first reference voltage. If there is, it is determined that the dwelling unit is in the operating state, and if it is equal to or lower than the second reference voltage, it is determined that the dwelling unit is in the inoperative state. However, the first reference voltage is the second reference voltage. The voltage may be the same as or different from the voltage. If the first reference voltage and the second reference voltage are set to different voltages, the state of the dwelling unit can be quickly detected even if the voltage change of the transmission line is delayed, which is convenient. In particular, when the transmission line is long, the voltage change of the transmission line may be delayed due to the influence of the capacitive impedance, and when the voltage rises, the detection of the operation state of the dwelling unit is delayed, and the power supply to the entrance unit is delayed. In some cases, the sound from the dwelling unit may be truncated. Also, when the voltage falls, the power shut-off of the entrance device is delayed, and the carrier wave of the dwelling unit is not input to the audio demodulation circuit in the entrance device. May cause abnormal noise. In order to prevent such an inconvenience, it is desirable that the first reference voltage and the second reference voltage are set to different voltages. In general, the first reference voltage for detecting a voltage rise is a voltage fall. It is preferable to set lower than the second reference voltage for detection.

The position of the repeater R is installed, it may be one near of the entrance vessel G or more dwelling units units J ₁ through J _4.

[Effects of the Invention] According to the present invention, as described above, in an interphone that multiplexes and transmits at least an audio signal and a power supply between a door and a dwelling unit by using a pair of transmission lines, one door and one door A relay unit for switching connection with one of the plurality of dwelling units; a front door unit and a dwelling unit including a unit for modulating and demodulating the audio signal by an FM method and transmitting the dwelling unit; and the dwelling unit supplies power on a transmission line. Means, the entrance unit is configured to be supplied with power from the transmission line, and the repeater operates the dwelling unit when the voltage of the transmission line connected to the switched dwelling unit becomes higher than the reference voltage. A voltage determination circuit for determining a state;
A circuit for supplying power to the transmission line connected to the entrance when the dwelling unit is determined to be in the operating state by the voltage determination circuit, so that the connection of the dwelling unit can be reliably detected, and There is an effect that the entrance apparatus can be operated only when it is normally connected. Therefore, there is no inconvenience that a large noise peculiar to the FM system is generated by the audio demodulation circuit at the entrance.

In addition, by combining the detection of the rise or fall of the voltage of the transmission line connected to the dwelling unit with the determination of the elapsed time, it is possible to prevent erroneous detection due to the characteristics of the transmission line, voltage oscillation, and the like. There is.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the present invention, FIG. 2 is a schematic configuration diagram of a conventional example, and FIGS. 3 (a) and 3 (b) are block diagrams of a dwelling unit and a door in another conventional example, respectively. , Fourth
The figure is an explanatory diagram showing an example of frequency division on a transmission line used in the above. G is the entrance vessel, J ₁ through J ₄ is entrance unit, R represents the repeater, l is a transmission line, 64 is a voltage discriminating circuit.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Masahiko Amano 1048 Oaza Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) References JP-A-63-67088 (JP, A) JP-A-58-54770 (JP, A) (58) Field surveyed (Int. Cl. ⁶ , DB name) H04M 9/00-9/10

Claims (6)

(57) [Claims] 1. An intercom for multiplexing transmission of at least an audio signal and a power supply between a door and a dwelling unit using a pair of transmission lines, wherein one of the one dwelling unit and a plurality of dwelling units is provided.
A relay device for switching connection between the two, the entrance device and the dwelling unit have a means for modulating and demodulating the audio signal by the FM method and transmitting it,
The dwelling unit is provided with a means for supplying power to the transmission line, the entrance unit is configured to be supplied with power from the transmission line, and the repeater is configured to supply the voltage of the transmission line connected to the switched dwelling unit to a reference voltage. A voltage discriminating circuit for discriminating that the dwelling unit is in an operating state when the above is achieved, and a circuit for supplying power to a transmission line connected to the entrance apparatus when the dwelling unit is discriminated in an operating state by the voltage discriminating circuit An intercom for a multi-family housing, comprising: " 2. The voltage determining circuit according to claim 1, further comprising means for canceling the switching connection of the dwelling unit when the rise of the voltage of the transmission line connected to the switching unit is not detected for a predetermined time or more. Item 7. An intercom for a dwelling house according to item 1. 3. The set according to claim 2, wherein the voltage discriminating circuit comprises means for releasing the switching connection of the dwelling unit when the voltage of the transmission line connected to the switching unit is dropped. Residential intercom. 4. The circuit according to claim 1, wherein the voltage discriminating circuit is a circuit which does not detect the fall of the voltage of the transmission line for a certain period of time after detecting the rise of the voltage of the transmission line connected to the switching unit. The intercom for a residential complex according to claim 3. 5. The circuit according to claim 1, wherein the voltage discriminating circuit does not detect the rise of the voltage of the transmission line for a certain period of time after detecting the fall of the voltage of the transmission line connected to the switch-connected dwelling unit. The intercom for a residential complex according to claim 3. 6. A first reference voltage for detecting that a voltage of a transmission line connected to the switched dwelling unit has risen, and a second reference voltage for detecting that a voltage of the transmission line has fallen. The intercom for a dwelling house according to claim 3, wherein the intercom is set to a voltage value different from the reference voltage.